Transmission method
In a transmission method of the present invention, when transmitting an information bit from a transmitter to a receiver, an encoder of the transmitter firstly inputs and encodes the information bit, and a modulator then modulates the encoded information bit to create a modulation symbol. A spreader spreads the obtained modulation symbol using a rotation orthogonal code having a rotation angle that is appropriate to a combination of the modulation method and the coding rate, and transmits it to a transmission path. The receiver performs a reverse operation of the transmitter, and decodes the information bit. In QPSK modulation where the coding rate of an error-correction code is ½, when a rotation angle that obtains a same signal point as OFDM is 0°, spreading is performed using a rotation orthogonal code having a rotation angle of between 17° and 45°, or between −17° and −45°, thereby reducing bit error and enabling highly-reliable communication to be achieved.
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The present invention relates to a transmission method using rotation orthogonal coding.
Priority is claimed on Japanese Patent Application No. 2005-314152, filed Oct. 28, 2005, the content of which is incorporated herein by reference.
BACKGROUND ARTIn new-generation mobile communication systems, multi-carrier transmission schemes are being regarded as effective, instead of single carrier transmission schemes. Representative examples of multicarrier transmission schemes are Orthogonal Frequency Division Multiplex (OFDM) schemes and Multi-Carrier Code Division Multiple Access (MC-CDMA) schemes.
In MC-CDMA, a modulation symbol is spread over a plurality of subcarriers and transmitted in multiplex, thereby obtaining frequency diversity and mitigating inter-cell interference. A rotation orthogonal code obtains hybrid characteristics of OFDM and MC-CDMA using a Walsh code, and is proposed as a spread code for MC-CDMA (e.g. see Non-Patent Document 1, below). At a spread rate of 2, if an n-th modulation symbol is Mi(n), n-th data subcarrier Di(n) spread by the rotation orthogonal code is expressed with equation (1).
If a rotation orthogonal code with a spread rate of 2 is expressed as a matrix of equation (2), equation (1) can be rewritten as equation (3), and a rotation orthogonal code with a spread rate of more than two is obtained from equation (4).
As shown in
(Non-Patent Document 1) 3GPP TSG RAN WG1#42 bis, R1-051261, “Enhancement of Distributed Mode for Maximizing Frequency Diversity,” Oct. 2005.
(Non-Patent Document 2) D. Garg and F. Adachi, “Diversity-Coding-Orthogonality Trade-off for Coded MC-CDMA with High Level Modulation,” IEICE Trans.
Commun., Vol. E88-B, No. 1, pp. 76-83, Jan. 2005.
Non-Patent Document 2 reports that signal-to-noise power ratio for obtaining a required packet error rate differs according to the modulation scheme, the coding rate of the error-correction code, and the transmission scheme. That is, an optimum transmission scheme differs according to the channel format such as the modulation scheme and the coding rate of the error-correction code, there being cases where the required OFDM signal-to-noise power ratio is lower than that of MC-CDMA, and cases where it is higher.
DISCLOSURE OF THE INVENTIONThus, while the rotation angle of the rotation orthogonal code that obtains the minimum required signal-to-noise power ratio also differs according to the channel format, this has not yet been reported. If, in a transmission scheme using a rotation orthogonal code, it were possible to spread using a rotation orthogonal code having a rotation angle appropriate to the transmission channel format, bit errors could be reduced, and highly reliable communication would be possible.
The present invention has been realized in view of these circumstances, and aims to provide a rotation orthogonal code having a rotation angle that is appropriate for a combination of the modulation scheme and the coding rate of the error-correction code.
The present invention has been realized in order to solve these problems. A transmission method according to the invention spreads a signal using a rotation orthogonal code, and uses a rotation orthogonal code having a rotation angle that differs according to a combination of a modulation scheme and the coding rate of an error-correction code.
Further, a transmission method that spreads a signal using a rotation orthogonal code according to the invention uses a rotation orthogonal code having a rotation angle of between 7° and 45°, or between −7° and −45° where a rotation angle that obtains a same signal point as OFDM is 0°.
Also, a transmission method that spreads a signal using a rotation orthogonal code according to the invention uses a rotation orthogonal code having a rotation angle of between 17° and 45°, or between −17° and −45° in QPSK modulation where a rotation angle that obtains a same signal point as OFDM is 0°.
Furthermore, a transmission method that spreads a signal using a rotation orthogonal code according to the invention uses a rotation orthogonal code having a rotation angle of between 18° and 45°, or between −18° and −45° in QPSK modulation where the coding rate of an error-correction code is ⅘, and where a rotation angle that obtains a same signal point as OFDM is 0°.
Furthermore, a transmission method that spreads a signal using a rotation orthogonal code according to the invention uses a rotation orthogonal code having a rotation angle of between 12° and 42°, or between −12° and 42° in 16 QAM modulation where the coding rate of an error-correction code is ¾, and where a rotation angle that obtains a same signal point as OFDM is 0°.
According to the present invention, in a transmission method of spreading a signal using a rotation orthogonal code, the signal can be spread with a rotation orthogonal code having a rotation angle that is appropriate for a combination of the modulation scheme and the coding rate of the error-correction code.
An embodiment of the invention will be explained with reference to the drawings.
A spreader 13 spreads the obtained modulation symbol using a rotation orthogonal code having a rotation angle appropriate to a combination of the modulation method and the coding rate, and transmits it to a transmission path 2. In the receiver 3, a de-spreader 31 de-spreads the signal received from the transmission path 2, a demodulator 32 demodulates the de-spread signal, and a decoder 33 decodes the information bit.
Subsequently, the rotation angle appropriate to a combination of a modulation method and a coding rate that is used in the spreading performed by the spreader 13 will be explained with reference to
In
The number of information bits, which is the number of information bits transmitted form the transmitter 1 of
A decoding algorithm, which is an algorithm used in decoding performed by the decoder 33 of
The spread rate/number of code multiplexes, which are the spread rate and number of code multiplexes in a code spread process implemented by the decoder 33 of
As shown in
An increase in the packet error rate can lead to a deterioration in the communication quality, and make it difficult to provide subscribers with adequate services. In particular, in a user datagram protocol (UDP) application that does not retransmit information even if a packet error occurs, when the packet error rate is greater than 1.5 times, it becomes difficult to continue communication even if using a transmission scheme where appropriate modulation is performed in accordance with propagation path fluctuations. Furthermore, it can be confirmed that the increase in the normalized packet error rate with respect to changes in the rotation angle is larger in regions where the normalized packet error rate is greater than 1.5 than in regions where it is less than 1.5.
As described in detail above, according to the invention, in a transmission method of spreading a signal using a rotation orthogonal code, it is possible to spread a signal with a rotation orthogonal code having a rotation angle that is appropriate for a combination of the modulation scheme and the coding rate of the error-correction code. While the simulation results shown in
Furthermore, while a Max Log-MAP algorithm was used as the decoding method, the range of the rotation angle that is appropriate for a combination of the modulation scheme and the coding rate does not change even if another code, such as a Log-MAP algorithm is used instead. Moreover, while a 16-path Rayleigh model that exponentially decays at intervals of six samples was used as the multi-path model, the range of the rotation angle that is appropriate for a combination of the modulation scheme and the coding rate does not change even if another multi-path model is used instead.
INDUSTRIAL APPLICABILITYThe present invention is suitable for use in a transmission method using rotation orthogonal code.
Claims
1. A transmission method that spreads a signal using a rotation orthogonal code, comprising using a rotation orthogonal code having a rotation angle that differs according to a combination of a modulation scheme and the coding rate of an error-correction code.
2. A transmission method that spreads a signal using a rotation orthogonal code, comprising using a rotation orthogonal code having a rotation angle of between 7° and 45°, or between −7° and −45° where a rotation angle that obtains a same signal point as OFDM is 0°.
3. A transmission method that spreads a signal using a rotation orthogonal code in QPSK modulation, comprising using a rotation orthogonal code having a rotation angle of between 17° and 45°, or between −17° and −45° where a rotation angle that obtains a same signal point as OFDM is 0°.
4. A transmission method that spreads a signal using a rotation orthogonal code in QPSK modulation where the coding rate of an error-correction code is ⅘, using a rotation orthogonal code having a rotation angle of between 18° and 45°, or between −18° and −45° where a rotation angle that obtains a same signal point as OFDM is 0°.
5. A transmission method that spreads a signal using a rotation orthogonal code in 16 QAM modulation where the coding rate of an error-correction code is ¾, using a rotation orthogonal code having a rotation angle of between 12° and 42°, or between −12° and −42 where a rotation angle that obtains a same signal point as OFDM is 0°.
Type: Application
Filed: Apr 15, 2008
Publication Date: Sep 18, 2008
Applicant: KDDI Corporation (Tokyo)
Inventors: Noriaki Miyazaki (Fujimino-shi), Toshinori Suzuki (Fujimino-shi), Fumio Watanabe (Tokyo)
Application Number: 12/148,084
International Classification: H04B 1/707 (20060101); H04L 27/10 (20060101);